DE3621143C2 - - Google Patents

Abstract

1. Rotational vibration damper having a cup (1) which can be flanged onto a shaft and a ring (2) which is elastically coupled to the circumference of the cup via at least three rubber webs (3), which ring is provided on its side facing the cup with at least two stops (5, 6) which interact with a radially protruding projection (4) on the circumference of the cup (1) such that the magnitudes of the pendular movements of the ring (2) around the cup (1) are restricted in both directions of rotation, the stops (5, 6) and/or the projection (4) consisting of an elastomer material. 2. In the case of known rotational vibration dampers of this type, in the event of large amplitudes, the material damping is inadequate to achieve sufficient vibration damping. 2.2 In order to achieve satisfactory damping not only for small vibration amplitudes but also for large amplitudes of the rotational vibration to be damped, without increasing the material damping and without changing the inertial mass, friction surfaces (7 and 8) are arranged on both sides of the projection (4), running in the circumferential direction, which friction surfaces (7 and 8) interact with external surfaces (9) of the stops (5, 6) running in the circumferential direction. The same effect is achieved when friction surfaces running in the circumferential direction are arranged on the sides of the stops facing the projection, which friction surfaces interact with the external surface of the projection running in the circumferential direction. 2.3 The rotational vibration damper is particularly suitable for motor vehicle transmissions. <IMAGE>

Description

The invention is based on a torsional vibration damper, especially for transmissions of motor vehicles, with a on a shaft that can be flanged and on the circumference of the Pot elastically attached to at least three rubber bars coupled ring, the one on its side facing the pot is provided with at least two stops, which with a radially protruding projection on the circumference of the pot such cooperate that the pendulum deflections of the ring around the Pot are limited in both directions, the Stops and or or the lead from one rubber-elastic material. Torsional vibration damper this type are known from DE 35 31 115 C1.

The well-known vibration absorbers have due to the material damping of the pot with that of the flywheel Ring connecting rubber bars with small amplitudes good vibration damping. With large amplitudes this is sufficient However, material damping is not enough to ensure adequate To achieve vibration damping.

The object of the invention is the torsional vibration damper type mentioned in such a way that without magnification material damping and without changing the swing satisfactory cushioning not only for small ones Vibrations, but also with large amplitudes the torsional vibration to be damped is reached.

This object is achieved in that both sides of the projection extend in the circumferential direction de friction surfaces are arranged with in the circumferential direction  interacting outer surfaces of the stops.

This torsional vibration damper dampens at small Am only the material damping of the rubber ridges plit. Who the larger the rashes, then the outer surfaces run the stops on the friction surfaces on both sides of the Projection so that the resulting friction Vibration energy destroyed. This friction is all the more larger, the larger the amplitudes of the Schwin to be damped are. This torsional vibration damper doesn't just pay off at a certain speed resonance vibrations pure dynamic, but also provides good damping in one larger speed range.

According to the invention, the same task can also be achieved solves that on the sides facing the projection of the stops running in the circumferential direction are arranged, which are in the circumferential direction cooperate outer surface of the projection.

The surfaces rubbing against each other, namely since Liche friction surfaces on the protrusions and thus cooperating outer surfaces of the stops or the Outer surfaces of the projections and the friction surfaces on the Projection facing side of the stops, run in essentially parallel to each other. These areas can but also be inclined towards each other so that the increasing pendulum swings resistance is growing disproportionately. Here, however, is to ensure that there is no jamming. The restoring force caused by the elastic webs must always be greater than the frictional force between the pot and Ring.

Further features of the invention result from the Un claims 3 to 8.

In the following description, exemplary embodiments  of the torsional vibration damper according to the invention with reference took explained in more detail on the drawings. The drawing gen show in

Fig. 1 is a side view of a torsional vibration damper according to the invention,

Fig. 2 is a view of the torsional vibration damper according to the section line II-II in Fig. 1,

Fig. 3 is a view of the torsional vibration damper according to the section line III-III in Fig. 1,

Fig. 4 shows a part of a side view of a second form of a torsional vibration from guide according to the invention,

Fig. 5 is a view along the section line VV in Fig. 4 of a torsional vibration damper with an additional disc.

The torsional vibration damper shown consists of egg nem pot 1 , which can be flange-mounted on a shaft, in particular a gear, and from a circumference of the pot 1 via four vulcanized rubber webs 3, which ring 2 , which due to its mass and its elastic coupling relative to the pot 1 can perform pendulum movements.

On the circumference of the pot 1 , four radially projecting projections 4 are arranged at equal intervals over the circumference, which cooperate with two stops 5 and 6 , which are attached to the inside of the ring 2 . These projections 4 and stops 5, 6 limit the maximum swing of the pendulum or amplitudes of the pen around the pot 1 delnden ring. 2

In the embodiment, the on the pot 1 jumps 4 are rigid, while the stops 5 and 6 on the ring 2 are made of a rubber-elastic material. But there is also a kinematic reversal of these parts possible, in which the projections 4 are made of rubber-elastic material, while the stops 5 and 6 on the inside of the ring 2 consist of a rigid material. Furthermore, it is also possible to arrange the elastic stops 5 and 6 on the circumference of the pot, while radially inwardly projecting projections 4 are arranged on the inside of the ring 2 .

On both sides of each projection 4 extending in the circumferential direction friction surfaces 7 and 8 are arranged, which cooperate with circumferential outer surfaces 9 of the arranged on the ring 2 stops 5 and 6 . The friction surfaces 7 and 8 and the outer surfaces 9 of the stops 5 and 6 are curved around the axis of the pot 1 . Because the diameter of the friction surfaces 7 and 8 is somewhat larger than the diameter of the outer surface 9 , when the pendulum deflections of the ring 2 become larger, the outer surfaces 9 of the elastic stops 5 and 6 slide more or less far onto the friction surfaces 7 and 8 of the projections 4 . In this postponement arise frictional forces, which are dependent on the coefficient of friction between the friction partners and the force with which the outer surfaces of the elastic strikes 5 and 6 on the friction surfaces 7 and 8 . This force is again dependent on the radii with which the friction surfaces and the outer surfaces of the stops are curved and on the elasticity of the stops 5 , 6 .

This torsional vibration absorber removes the one to be damped Wave both dynamically and through material friction and  with larger pendulum swings also through the area Exercise the superimposed surfaces of vibration energy.

As shown in Fig. 1, 1 large window 10 are incorporated in the bottom of the pot, so that three spokes 11 arise, which connect the pot base to be fixed to a shaft or a disk with the pot jacket. The pot 1 is made of sheet steel and the projections 4 with the two friction surfaces 7 and 8 are pressed out of the wall of the pot 1 . The stops 6 and 7 are made of rubber and are vulcanized on the inside of the ring 2 . In the embodiment according to FIG. 1, the ring 2 is connected to the pot 1 via four elastic webs 3 . Furthermore, a projection 4 and two elastic stops 5 and 6 are arranged between two webs 3 . The arrangement of the projections 4 with the friction surfaces 7 and 8 and the conditions 5 and 6 is such that the friction surfaces 7 and 8 extend over at least 25% but preferably 50% of the maximum pendulum deflection. If, for example, the pendulum deflection of the ring with respect to the pot is approximately 6 ° on each side, each friction surface extends approximately 3 °. The running edges of the friction surfaces 7 and 8 or the outer surface 9 are slightly chamfered or rounded in order to facilitate the running up.

It is also possible to give the friction surfaces 7 and 8 or the outer surface 9 such an inclination that when the pendulum swings become larger, the contact pressure of the friction surfaces 7 and 8 is greater in its end region than in the initial region. However, this inclination must be chosen so that jamming of the ring 2 on the friction surfaces 7 and 8 brought on the pot 1 cannot occur.

As shown in Fig. 4, the friction surfaces 7 'and 8 ' can also be arranged on the projection 4 'facing sides of the stops 5 ' and 6 'attached to the inside of the ring 2 '.

As FIG. 5 shows, on the ring 2, a concentric recess 14 is mounted, in which the collar 15 is inserted a disc-shaped additional mass 16. With the help of this additional mass 16 , the characteristic speed of the torsional vibration damper can be fine-tuned. The disk-shaped additional mass 16 increases the oscillating mass without taking up much more space, which is very cramped, especially in motor vehicle transmissions.

The collar 15 of the disk-shaped additional mass 16 can be connected to the ring 2 by spot welding.

Claims (8)

1. A torsional vibration damper, in particular for gears of motor vehicles, with a flange-mounted on a shaft pot (1) and a at the periphery of the pot (1) via at least three rubber webs (3) elastically coupled ring (2) provided on its side facing the pot (1 ) facing side is provided with at least two stops ( 5 , 6 ) which interact with a radially projecting projection ( 4 ) on the circumference of the pot ( 1 ) in such a way that the pendulum deflections of the ring ( 2 ) around the pot ( 1 ) in Both directions of rotation are limited, the stops ( 5 , 6 ) and or or the projection ( 4 ) made of a rubber-elastic material, characterized in that on both sides of the projection ( 4 ) circumferential friction surfaces ( 7 and 8 ) are arranged , which interact with outer surfaces ( 9 ) of the strikes ( 5 , 6 ) extending in the circumferential direction. 2. A torsional vibration damper, in particular for gears of motor vehicles, with a flange-mounted on a shaft pot (1) and a at the periphery of the pot (1) via at least three rubber webs (3) elastically coupled ring (2) provided on its side facing the pot (1 ) facing side is provided with at least two stops ( 5 ', 6 ') which cooperate with a radially projecting projection ( 4 ' ) on the circumference of the pot ( 1 ) in such a way that the pendulum deflections of the ring ( 2 ) around the pot ( 1 ) are limited in both directions of rotation, the stops ( 5 ', 6 ') and or or the projection ( 4 ' ) consist of a rubber-elastic material, characterized in that on the projection ( 4' ) facing the sides of the stops ( 5 ' and 6' ) in the circumferential direction extending friction surfaces ( 7 ' and 8' ) are arranged which cooperate with the circumferential outer surface ( 9 ' ) of the projection ( 4' ). 3. torsional vibration damper according to claim 1, characterized in that the projection ( 4 , 4 ' ) with the friction surfaces is integrally connected to the pot ( 1 ). 4. torsional vibration damper according to claim 1, characterized in that the projection ( 4 ) with the two friction surfaces ( 7 , 8 ) from a sheet steel wall of the pot ( 1 ) is pressed out. 5. torsional vibration damper according to claim 1, characterized in that the radius of curvature of the friction surfaces ( 7, 8 ) is 0.1 to 0.5 mm larger than the radius of curvature of the cooperating outer surfaces ( 9 ) of the stops ( 5, 6 ). 6. torsional vibration damper according to claim 2, characterized in that the radius of curvature of the friction surfaces ( 7 ', 8' ) at the stops ( 5 ', 6' ) is 0.1 to 0.5 mm smaller than the radius of curvature of the outer surface interacting therewith ( 9 ' ) of the projection ( 4' ). 7. torsional vibration damper according to one of claims 1 to 6, characterized in that the friction surfaces ( 7, 8 ) extend over at least 25% and preferably 50% of the maximum pendulum deflection. 8. torsional vibration damper according to one of claims 1 to 7, characterized in that a concentric recess ( 14 ) is arranged on the ring ( 2 ) into which a collar ( 15 ) of an additional disc ( 16 ) can be inserted.